Raytheon Technologies - Boston, MA
posted 3 months ago
At Raytheon, the foundation of everything we do is rooted in our values and a higher calling - to help our nation and allies defend freedoms and deter aggression. We bring the strength of more than 100 years of experience and renowned engineering expertise to meet the needs of today's mission and stay ahead of tomorrow's threat. Our team solves tough, meaningful problems that create a safer, more secure world. As a Senior Mechanical Engineer in Controls and Actuation, you will be responsible for developing technical solutions for a wide range of moving element challenges, such as aerodynamic steering, thrust vectoring, attitude-and-divert maneuvering, pointing, and stabilizing of missile systems and subsystems. Your responsibility will extend across the entire life cycle of the product, from conceptualizing and design, to prototyping and manufacturing, integration and verification testing, through production support. You will be expected to apply sound mechanical engineering principles to solve complex system problems while collaborating with a cross-discipline team including electrical engineering, systems engineering, flight science, manufacturing engineering, supply chain, and others. Specific tasks may include requirements development and comprehension, concept development, trade study evaluation, free-body diagram generation, first order structural and thermal analysis, gear analysis, material assessment and selection, 3D modeling support, datum selection and application of geometric dimensioning and tolerance, tolerance analysis, margin analysis, support of drawing development, support of manufacturing process and build tooling development, support of test process and test equipment development, and participation in design reviews. Day-to-day activities are highly collaborative, both internally across disciplines as well as externally with suppliers. Hands-on opportunities are plentiful, as great emphasis is put on exposing designers to the hardware through participation in prototype building and verification testing, thus enabling firsthand knowledge of system performance. Assigned responsibilities could grow to include a team leadership role of a major hardware subsystem on a specific program, requiring accountability for technical success across disciplines (mechanical, electrical, algorithm, software, integration, etc.), risk management, system integration into the overall final assembly, and adherence to cost and schedule commitments.